Meesungnoen, J. and Jay-Gerin, J-P. Effect of Multiple Ionization on the Yield of H₂O₂ Produced in the Radiolysis of Aqueous 0.4 M H₂SO₄ Solutions by High-LET ¹²C⁶ and ²⁰Ne⁹ Ions. Radiat. Res. 164, 688–694 (2005).

Monte Carlo track structure simulations were performed to investigate the effect of multiple ionization of water on the primary (or “escape”) (at ∼10⁻⁶ s) yield of hydrogen peroxide (G_H2O2) produced in the radiolysis of deaerated 0.4 M H₂SO₄ solutions by ¹²C⁶ and ²⁰Ne⁹ ions at high linear energy transfer (LET) up to ∼900 keV/μm. It was found that, upon incorporating the mechanisms of double, triple and quadruple ionizations of water in the calculations, a quantitative agreement between theory and experiment can be obtained. The curve for G_H2O2 as a function of LET reaches a well-defined maximum of ∼1.4 molecules/100 eV at ∼180–200 keV/μm, in very good accord with the available experimental data. Our results also show that, for the highest LET values considered in this study, the H₂O₂ escape yields obtained in 0.4 M sulfuric acid solutions are about 45% greater in magnitude than those found in neutral water. Contrary to a recent assumption suggesting that the limiting value of G_H2O2 at infinite LET should be ∼1 molecule/100 eV, somewhat similar for neutral and acidic water, our simulations show a clear decrease in the primary H₂O₂ yields with increasing LET at high LET, indicating that the question of the limiting value of G_H2O2 at very high LET for both neutral and acidic liquid water is still open.